# Copyright 2013-2021 Lawrence Livermore National Security, LLC and other
# Spack Project Developers. See the top-level COPYRIGHT file for details.
#
# SPDX-License-Identifier: (Apache-2.0 OR MIT)


import os
import sys
import glob
import tempfile
import re
import inspect
import xml.etree.ElementTree as ElementTree
import llnl.util.tty as tty

from llnl.util.filesystem import \
    install, ancestor, filter_file, \
    HeaderList, find_headers, \
    LibraryList, find_libraries, find_system_libraries

from spack.version import Version, ver
from spack.package import PackageBase, run_after, InstallError
from spack.util.environment import EnvironmentModifications
from spack.util.executable import Executable
from spack.util.prefix import Prefix
from spack.build_environment import dso_suffix

# A couple of utility functions that might be useful in general. If so, they
# should really be defined elsewhere, unless deemed heretical.
# (Or na"ive on my part).


def debug_print(msg, *args):
    '''Prints a message (usu. a variable) and the callers' names for a couple
    of stack frames.
    '''
    # https://docs.python.org/2/library/inspect.html#the-interpreter-stack
    stack = inspect.stack()
    _func_name = 3
    tty.debug("%s.%s:\t%s" % (stack[2][_func_name], stack[1][_func_name], msg),
              *args)


def raise_lib_error(*args):
    '''Bails out with an error message. Shows args after the first as one per
    line, tab-indented, useful for long paths to line up and stand out.
    '''
    raise InstallError("\n\t".join(str(i) for i in args))


def _expand_fields(s):
    '''[Experimental] Expand arch-related fields in a string, typically a
    filename.

    Supported fields and their typical expansions are::

        {platform}  linux, mac
        {arch}      intel64 (including on Mac)
        {libarch}   intel64, empty on Mac
        {bits}      64

    '''
    # Python-native string formatting requires arg list counts to match the
    # replacement field count; optional fields are far easier with regexes.

    _bits = '64'
    _arch = 'intel64'   # TBD: ia32

    if 'linux' in sys.platform:         # NB: linux2 vs. linux
        s = re.sub('{platform}', 'linux', s)
        s = re.sub('{libarch}', _arch, s)
    elif 'darwin' in sys.platform:
        s = re.sub('{platform}', 'mac', s)
        s = re.sub('{libarch}', '', s)  # no arch dirs are used (as of 2018)
    # elif 'win' in sys.platform:            # TBD
    #     s = re.sub('{platform}', 'windows', s)

    s = re.sub('{arch}', _arch, s)
    s = re.sub('{bits}', _bits, s)
    return s


class IntelPackage(PackageBase):
    """Specialized class for licensed Intel software.

    This class provides two phases that can be overridden:

    1. :py:meth:`~.IntelPackage.configure`
    2. :py:meth:`~.IntelPackage.install`

    They both have sensible defaults and for many packages the
    only thing necessary will be to override setup_run_environment
    to set the appropriate environment variables.
    """
    #: Phases of an Intel package
    phases = ['configure', 'install']

    #: This attribute is used in UI queries that need to know the build
    #: system base class
    build_system_class = 'IntelPackage'

    #: A dict that maps Spack version specs to release years, needed to infer
    #: the installation directory layout for pre-2016 versions in the family of
    #: Intel packages.
    #
    # Like any property, it can be overridden in client packages, should older
    # versions ever be added there.  The initial dict here contains the
    # packages defined in Spack as of 2018-04.  Keys could conceivably overlap
    # but preferably should not - only the first key in hash traversal order
    # that satisfies self.spec will be used.
    version_years = {
        # intel-daal is versioned 2016 and later, no divining is needed
        'intel-ipp@9.0:9.99':         2016,
        'intel-mkl@11.3.0:11.3.999':  2016,
        'intel-mpi@5.1:5.99':         2016,
    }

    # Below is the list of possible values for setting auto dispatch functions
    # for the Intel compilers. Using these allows for the building of fat
    # binaries that will detect the CPU SIMD capabilities at run time and
    # activate the appropriate extensions.
    auto_dispatch_options = ('COMMON-AVX512', 'MIC-AVX512', 'CORE-AVX512',
                             'CORE-AVX2', 'CORE-AVX-I', 'AVX', 'SSE4.2',
                             'SSE4.1', 'SSSE3', 'SSE3', 'SSE2')

    @property
    def license_required(self):
        # The Intel libraries are provided without requiring a license as of
        # version 2017.2. Trying to specify one anyway will fail. See:
        # https://software.intel.com/en-us/articles/free-ipsxe-tools-and-libraries
        return self._has_compilers or self.version < ver('2017.2')

    #: Comment symbol used in the license.lic file
    license_comment = '#'

    #: Environment variables that Intel searches for a license file
    license_vars = ['INTEL_LICENSE_FILE']

    #: URL providing information on how to acquire a license key
    license_url = 'https://software.intel.com/en-us/articles/intel-license-manager-faq'

    #: Location where Intel searches for a license file
    @property
    def license_files(self):
        dirs = ['Licenses']

        if self._has_compilers:
            dirs.append(self.component_bin_dir('compiler'))

            for variant, component_suite_dir in {
                '+advisor':    'advisor',
                '+inspector':  'inspector',
                '+itac':       'itac',
                '+vtune':      'vtune_profiler',
            }.items():
                if variant in self.spec:
                    dirs.append(self.normalize_path(
                        'licenses', component_suite_dir, relative=True))

        files = [os.path.join(d, 'license.lic') for d in dirs]
        return files

    #: Components to install (list of name patterns from pset/mediaconfig.xml)
    # NB: Renamed from plain components() for coding and maintainability.
    @property
    def pset_components(self):
        # Do not detail single-purpose client packages.
        if not self._has_compilers:
            return ['ALL']

        # tty.warn('DEBUG: installing ALL components')
        # return ['ALL']

        # Always include compilers and closely related components.
        # Pre-2016 compiler components have different names - throw in all.
        # Later releases have overlapping minor parts that differ by "edition".
        # NB: The spack package 'intel' is a subset of
        # 'intel-parallel-studio@composer' without the lib variants.
        c = ' intel-icc          intel-ifort' \
            ' intel-ccomp        intel-fcomp        intel-comp-' \
            ' intel-compilerproc intel-compilerprof intel-compilerpro-' \
            ' intel-psxe intel-openmp'

        additions_for = {
            'cluster':      ' intel-icsxe',
            'professional': ' intel-ips-',
            'composer':     ' intel-compxe',
        }
        if self._edition in additions_for:
            c += additions_for[self._edition]

        for variant, components_to_add in {
            '+daal':      ' intel-daal',   # Data Analytics Acceleration Lib
            '+gdb':       ' intel-gdb',    # Integrated Performance Primitives
            '+ipp':       ' intel-ipp intel-crypto-ipp',
            '+mkl':       ' intel-mkl',    # Math Kernel Library
            '+mpi':       ' intel-mpi intel-imb',  # MPI runtime, SDK, benchm.
            '+tbb':       ' intel-tbb',    # Threading Building Blocks
            '+advisor':   ' intel-advisor',
            '+clck':      ' intel_clck',   # Cluster Checker
            '+inspector': ' intel-inspector',
            '+itac':      ' intel-itac intel-ta intel-tc'
                          ' intel-trace-analyzer intel-trace-collector',
                          # Trace Analyzer and Collector
            '+vtune':     ' intel-vtune'
                          # VTune, ..-profiler since 2020, ..-amplifier before
        }.items():
            if variant in self.spec:
                c += components_to_add

        debug_print(c)
        return c.split()

    # ---------------------------------------------------------------------
    # Utilities
    # ---------------------------------------------------------------------
    @property
    def _filtered_components(self):
        '''Expands the list of desired component patterns to the exact names
        present in the given download.
        '''
        c = self.pset_components
        if 'ALL' in c or 'DEFAULTS' in c:    # No filter needed
            return c

        # mediaconfig.xml is known to contain duplicate components.
        # If more than one copy of the same component is used, you
        # will get an error message about invalid components.
        # Use sets to prevent duplicates and for efficient traversal.
        requested = set(c)
        confirmed = set()

        # NB: To get a reasonable overview in pretty much the documented way:
        #
        #   grep -E '<Product|<Abbr|<Name>..[a-z]'  pset/mediaconfig.xml
        #
        # https://software.intel.com/en-us/articles/configuration-file-format
        #
        xmltree = ElementTree.parse('pset/mediaconfig.xml')
        for entry in xmltree.getroot().findall('.//Abbr'):  # XPath expression
            name_present = entry.text
            for name_requested in requested:
                if name_present.startswith(name_requested):
                    confirmed.add(name_present)

        return list(confirmed)

    @property
    def intel64_int_suffix(self):
        '''Provide the suffix for Intel library names to match a client
        application's desired int size, conveyed by the active spec variant.
        The possible suffixes and their meanings are:

          ``ilp64``  all of int, long, and pointer are 64 bit,
          `` lp64``  only long and pointer are 64 bit; int will be 32bit.
        '''
        if '+ilp64' in self.spec:
            return 'ilp64'
        else:
            return 'lp64'

    @property
    def _has_compilers(self):
        return self.name in ['intel', 'intel-parallel-studio']

    @property
    def _edition(self):
        if self.name == 'intel-parallel-studio':
            return self.version[0]      # clearer than .up_to(1), I think.
        elif self.name == 'intel':
            return 'composer'
        else:
            return ''

    @property
    def version_yearlike(self):
        '''Return the version in a unified style, suitable for Version class
        conditionals.
        '''
        # Input data for this routine:  self.version
        # Returns:                      YYYY.Nupdate[.Buildseq]
        #
        # Specifics by package:
        #
        #   Package                     Format of self.version
        #   ------------------------------------------------------------
        #   'intel-parallel-studio'     <edition>.YYYY.Nupdate
        #   'intel'                     YY.0.Nupdate (some assigned ad-hoc)
        #   Recent lib packages         YYYY.Nupdate.Buildseq
        #   Early lib packages          Major.Minor.Patch.Buildseq
        #   ------------------------------------------------------------
        #
        #   Package                     Output
        #   ------------------------------------------------------------
        #   'intel-parallel-studio'     YYYY.Nupdate
        #   'intel'                     YYYY.Nupdate
        #   Recent lib packages         YYYY.Nupdate.Buildseq
        #   Known early lib packages    YYYY.Minor.Patch.Buildseq (*)
        #   Unknown early lib packages  (2000 + Major).Minor.Patch.Buildseq
        #   ----------------------------------------------------------------
        #
        #   (*) YYYY is taken from @property "version_years" (a dict of specs)
        #
        try:
            if self.name == 'intel':
                # Has a "Minor" version element, but it is always set as 0. To
                # be useful for comparisons, drop it and get YYYY.Nupdate.
                v_tail = self.version[2:]   # coerced just fine via __getitem__
            else:
                v_tail = self.version[1:]
        except IndexError:
            # Hmm - this happens on "spack install intel-mkl@11".
            # I thought concretization picks an actual version??
            return self.version     # give up

        if self.name == 'intel-parallel-studio':
            return v_tail

        v_year = self.version[0]
        if v_year < 2000:
            # Shoehorn Major into release year until we know better.
            v_year += 2000
            for spec, year in self.version_years.items():
                if self.spec.satisfies(spec):
                    v_year = year
                    break

        return ver('%s.%s' % (v_year, v_tail))

    # ---------------------------------------------------------------------
    # Directory handling common to all Intel components
    # ---------------------------------------------------------------------
    # For reference: classes using IntelPackage, as of Spack-0.11:
    #
    #  intel/               intel-ipp/          intel-mpi/
    #  intel-daal/          intel-mkl/          intel-parallel-studio/
    #
    # Not using class IntelPackage:
    #  intel-gpu-tools/        intel-mkl-dnn/          intel-tbb/
    #
    def normalize_suite_dir(self, suite_dir_name, version_globs=['*.*.*']):
        '''Returns the version-specific and absolute path to the directory of
        an Intel product or a suite of product components.

        Parameters:

            suite_dir_name (str):
                Name of the product directory, without numeric version.

                - Examples::

                    composer_xe, parallel_studio_xe, compilers_and_libraries

                The following will work as well, even though they are not
                directly targets for Spack installation::

                    advisor_xe, inspector_xe, vtune_amplifier_xe,
                    performance_snapshots (new name for vtune as of 2018)

                These are single-component products without subordinate
                components and are normally made available to users by a
                toplevel psxevars.sh or equivalent file to source (and thus by
                the modulefiles that Spack produces).

            version_globs (list of str): Suffix glob patterns (most specific
                first) expected to qualify suite_dir_name to its fully
                version-specific install directory (as opposed to a
                compatibility directory or symlink).
        '''
        # See ./README-intel.rst for background and analysis of dir layouts.

        d = self.prefix

        # Distinguish between product installations that were done external to
        # Spack (integrated via packages.yaml) and Spack-internal ones. The
        # resulting prefixes may differ in directory depth and specificity.
        unversioned_dirname = ''
        if suite_dir_name and suite_dir_name in d:
            # If e.g. MKL was installed outside of Spack, it is likely just one
            # product or product component among possibly many other Intel
            # products and their releases that were installed in sibling or
            # cousin directories.  In such cases, the prefix given to Spack
            # will inevitably be a highly product-specific and preferably fully
            # version-specific directory.  This is what we want and need, and
            # nothing more specific than that, i.e., if needed, convert, e.g.:
            #   .../compilers_and_libraries*/* -> .../compilers_and_libraries*
            d = re.sub('(%s%s.*?)%s.*' %
                       (os.sep, re.escape(suite_dir_name), os.sep), r'\1', d)

            # The Intel installer scripts try hard to place compatibility links
            # named like this in the install dir to convey upgrade benefits to
            # traditional client apps. But such a generic name can be trouble
            # when given to Spack: the link target is bound to change outside
            # of Spack's purview and when it does, the outcome of subsequent
            # builds of dependent packages may be affected. (Though Intel has
            # been remarkably good at backward compatibility.)
            # I'm not sure if Spack's package hashing includes link targets.
            if d.endswith(suite_dir_name):
                # NB: This could get tiresome without a seen++ test.
                # tty.warn('Intel product found in a version-neutral directory'
                #          ' - future builds may not be reproducible.')
                #
                # Simply doing realpath() would not be enough, because:
                #   compilers_and_libraries -> compilers_and_libraries_2018
                # which is mostly a staging directory for symlinks (see next).
                unversioned_dirname = d
        else:
            # By contrast, a Spack-internal MKL installation will inherit its
            # prefix from install.sh of Intel's package distribution, where it
            # means the high-level installation directory that is specific to
            # the *vendor* (think of the default "/opt/intel"). We must now
            # step down into the *product* directory to get the usual
            # hierarchy. But let's not do that in haste ...
            #
            # For a Spack-born install, the fully-qualified release directory
            # desired above may seem less important since product upgrades
            # won't land in the same parent. However, only the fully qualified
            # directory contains the regular files for the compiler commands:
            #
            # $ ls -lF <HASH>/compilers_and_libraries*/linux/bin/intel64/icc
            #
            # <HASH>/compilers_and_libraries_2018.1.163/linux/bin/intel64/icc*
            #   A regular file in the actual release directory. Bingo!
            #
            # <HASH>/compilers_and_libraries_2018/linux/bin/intel64/icc -> ...
            #   A symlink - no good. Note that "compilers_and_libraries_2018/"
            #   is itself a directory (not symlink) but it merely holds a
            #   compatibility dir hierarchy with lots of symlinks into the
            #   release dir.
            #
            # <HASH>/compilers_and_libraries/linux/bin/intel64/icc -> ...
            #   Ditto.
            #
            #  Now, the Spack packages for MKL and MPI packges use version
            #  triplets, but the one for intel-parallel-studio does not.
            #  So, we can't have it quite as easy as:
            # d = Prefix(d.append('compilers_and_libraries_' + self.version))
            #  Alright, let's see what we can find instead:
            unversioned_dirname = os.path.join(d, suite_dir_name)

        if unversioned_dirname:
            for g in version_globs:
                try_glob = unversioned_dirname + g
                debug_print('trying %s' % try_glob)

                matching_dirs = sorted(glob.glob(try_glob))
                # NB: Python glob() returns results in arbitrary order - ugh!
                # NB2: sorted() is a shortcut that is NOT number-aware.

                if matching_dirs:
                    debug_print('found %d:' % len(matching_dirs),
                                matching_dirs)
                    # Take the highest and thus presumably newest match, which
                    # better be the sole one anyway.
                    d = matching_dirs[-1]
                    break

            if not matching_dirs:
                # No match -- return a sensible value anyway.
                d = unversioned_dirname

        debug_print(d)
        return Prefix(d)

    def normalize_path(self, component_path, component_suite_dir=None,
                       relative=False):
        '''Returns the absolute or relative path to a component or file under a
        component suite directory.

        Intel's product names, scope, and directory layout changed over the
        years.  This function provides a unified interface to their directory
        names.

        Parameters:

            component_path (str): a component name like 'mkl', or 'mpi', or a
                deeper relative path.

            component_suite_dir (str): _Unversioned_ name of the expected
                parent directory of component_path.  When absent or `None`, an
                appropriate default will be used.  A present but empty string
                `""` requests that `component_path` refer to `self.prefix`
                directly.

                Typical values: `compilers_and_libraries`, `composer_xe`,
                `parallel_studio_xe`.

                Also supported: `advisor`, `inspector`, `vtune`. The actual
                directory name for these suites varies by release year. The
                name will be corrected as needed for use in the return value.

            relative (bool): When True, return path relative to self.prefix,
                otherwise, return an absolute path (the default).
        '''
        # Design note: Choosing the default for `component_suite_dir` was a bit
        # tricky since there better be a sensible means to specify direct
        # parentage under self.prefix (even though you normally shouldn't need
        # a function for that).  I chose "" to allow that case be represented,
        # and 'None' or the absence of the kwarg to represent the most relevant
        # case for the time of writing.
        #
        # In the 2015 releases (the earliest in Spack as of 2018), there were
        # nominally two separate products that provided the compilers:
        # "Composer" as lower tier, and "Parallel Studio" as upper tier. In
        # Spack, we justifiably retcon both as "intel-parallel-studio@composer"
        # and "...@cluster", respectively.  Both of these use the older
        # "composer_xe" dir layout, as do their virtual package personas.
        #
        # All other "intel-foo" packages in Spack as of 2018-04 use the
        # "compilers_and_libraries" layout, including the 2016 releases that
        # are not natively versioned by year.

        cs = component_suite_dir
        if cs is None and component_path.startswith('ism'):
            cs = 'parallel_studio_xe'

        v = self.version_yearlike

        # Glob variants to complete component_suite_dir.
        # Helper var for older MPI versions - those are reparented, with each
        # version in their own version-named dir.
        standalone_glob = '[1-9]*.*.*'

        # Most other components; try most specific glob first.
        # flake8 is far too opinionated about lists - ugh.
        normalize_kwargs = {
            'version_globs': [
                '_%s' % self.version,
                '_%s.*' % v.up_to(2),   # should be: YYYY.Nupdate
                '_*.*.*',               # last resort
            ]
        }
        for rename_rule in [
            # cs given as arg, in years, dir actually used, [version_globs]
            [None,              ':2015', 'composer_xe'],
            [None,              '2016:', 'compilers_and_libraries'],
            ['advisor',         ':2016', 'advisor_xe'],
            ['inspector',       ':2016', 'inspector_xe'],
            ['vtune_profiler',  ':2017', 'vtune_amplifier_xe'],
            ['vtune',           ':2017', 'vtune_amplifier_xe'],  # alt.
            ['vtune_profiler',  ':2019', 'vtune_amplifier'],
            ['itac',            ':',     'itac',  [os.sep + standalone_glob]],
        ]:
            if cs == rename_rule[0] and v.satisfies(ver(rename_rule[1])):
                cs = rename_rule[2]
                if len(rename_rule) > 3:
                    normalize_kwargs = {'version_globs': rename_rule[3]}
                break

        d = self.normalize_suite_dir(cs, **normalize_kwargs)

        # Help find components not located directly under d.
        # NB: ancestor() not well suited if version_globs may contain os.sep .
        parent_dir = re.sub(os.sep + re.escape(cs) + '.*', '', d)

        reparent_as = {}
        if cs == 'compilers_and_libraries':     # must qualify further
            d = os.path.join(d, _expand_fields('{platform}'))
        elif cs == 'composer_xe':
            reparent_as = {'mpi': 'impi'}
            # ignore 'imb' (MPI Benchmarks)

        for nominal_p, actual_p in reparent_as.items():
            if component_path.startswith(nominal_p):
                dirs = glob.glob(
                    os.path.join(parent_dir, actual_p, standalone_glob))
                debug_print('reparent dirs: %s' % dirs)
                # Brazenly assume last match is the most recent version;
                # convert back to relative of parent_dir, and re-assemble.
                rel_dir = dirs[-1].split(parent_dir + os.sep, 1)[-1]
                component_path = component_path.replace(nominal_p, rel_dir, 1)
                d = parent_dir

        d = os.path.join(d, component_path)

        if relative:
            d = os.path.relpath(os.path.realpath(d), parent_dir)

        debug_print(d)
        return d

    def component_bin_dir(self, component, **kwargs):
        d = self.normalize_path(component, **kwargs)

        if component == 'compiler':     # bin dir is always under PARENT
            d = os.path.join(ancestor(d), 'bin', _expand_fields('{libarch}'))
            d = d.rstrip(os.sep)        # cosmetics, when {libarch} is empty
            # NB: Works fine even with relative=True, e.g.:
            #   composer_xe/compiler -> composer_xe/bin/intel64
        elif component == 'mpi':
            d = os.path.join(d, _expand_fields('{libarch}'), 'bin')
        else:
            d = os.path.join(d, 'bin')
        debug_print(d)
        return d

    def component_lib_dir(self, component, **kwargs):
        '''Provide directory suitable for find_libraries() and
        SPACK_COMPILER_EXTRA_RPATHS.
        '''
        d = self.normalize_path(component, **kwargs)

        if component == 'mpi':
            d = os.path.join(d, _expand_fields('{libarch}'), 'lib')
        else:
            d = os.path.join(d, 'lib', _expand_fields('{libarch}'))
            d = d.rstrip(os.sep)        # cosmetics, when {libarch} is empty

        if component == 'tbb':      # must qualify further for abi
            d = os.path.join(d, self._tbb_abi)

        debug_print(d)
        return d

    def component_include_dir(self, component, **kwargs):
        d = self.normalize_path(component, **kwargs)

        if component == 'mpi':
            d = os.path.join(d, _expand_fields('{libarch}'), 'include')
        else:
            d = os.path.join(d, 'include')

        debug_print(d)
        return d

    @property
    def file_to_source(self):
        '''Full path of file to source for initializing an Intel package.
        A client package could override as follows:
        `    @property`
        `    def file_to_source(self):`
        `        return self.normalize_path("apsvars.sh", "vtune_amplifier")`
        '''
        vars_file_info_for = {
            # key (usu. spack package name) -> [rel_path, component_suite_dir]
            # Extension note: handle additions by Spack name or ad-hoc keys.
            '@early_compiler':       ['bin/compilervars',           None],
            'intel-parallel-studio': ['bin/psxevars', 'parallel_studio_xe'],
            'intel':                 ['bin/compilervars',           None],
            'intel-daal':            ['daal/bin/daalvars',          None],
            'intel-ipp':             ['ipp/bin/ippvars',            None],
            'intel-mkl':             ['mkl/bin/mklvars',            None],
            'intel-mpi':             ['mpi/{libarch}/bin/mpivars',  None],
        }
        key = self.name
        if self.version_yearlike.satisfies(ver(':2015')):
            # Same file as 'intel' but 'None' for component_suite_dir will
            # resolve differently. Listed as a separate entry to serve as
            # example and to avoid pitfalls upon possible refactoring.
            key = '@early_compiler'

        f, component_suite_dir = vars_file_info_for[key]
        f = _expand_fields(f) + '.sh'
        # TODO?? win32 would have to handle os.sep, '.bat' (unless POSIX??)

        f = self.normalize_path(f, component_suite_dir)
        return f

    # ---------------------------------------------------------------------
    # Threading, including (WIP) support for virtual 'tbb'
    # ---------------------------------------------------------------------
    @property
    def openmp_libs(self):
        '''Supply LibraryList for linking OpenMP'''

        if '%intel' in self.spec:
            # NB: Hunting down explicit library files may be the Spack way of
            # doing things, but be aware that "{icc|ifort} --help openmp"
            # steers us towards options instead: -qopenmp-link={dynamic,static}

            omp_libnames = ['libiomp5']
            omp_libs = find_libraries(
                omp_libnames,
                root=self.component_lib_dir('compiler'),
                shared=('+shared' in self.spec))
            # Note about search root here: For MKL, the directory
            # "$MKLROOT/../compiler" will be present even for an MKL-only
            # product installation (as opposed to one being ghosted via
            # packages.yaml), specificially to provide the 'iomp5' libs.

        elif '%gcc' in self.spec:
            gcc = Executable(self.compiler.cc)
            omp_lib_path = gcc(
                '--print-file-name', 'libgomp.%s' % dso_suffix, output=str)
            omp_libs = LibraryList(omp_lib_path.strip())

        if len(omp_libs) < 1:
            raise_lib_error('Cannot locate OpenMP libraries:', omp_libnames)

        debug_print(omp_libs)
        return omp_libs

    @property
    def _gcc_executable(self):
        '''Return GCC executable'''
        # Match the available gcc, as it's done in tbbvars.sh.
        gcc_name = 'gcc'
        # but first check if -gcc-name is specified in cflags
        for flag in self.spec.compiler_flags['cflags']:
            if flag.startswith('-gcc-name='):
                gcc_name = flag.split('-gcc-name=')[1]
                break
        debug_print(gcc_name)
        return Executable(gcc_name)

    @property
    def tbb_headers(self):
        # Note: TBB is included as
        # #include <tbb/task_scheduler_init.h>
        return HeaderList([
            self.component_include_dir('tbb') + '/dummy.h'])

    @property
    def tbb_libs(self):
        '''Supply LibraryList for linking TBB'''

        # TODO: When is 'libtbbmalloc' needed?
        tbb_lib = find_libraries(
            ['libtbb'], root=self.component_lib_dir('tbb'))
        # NB: Like icc with -qopenmp, so does icpc steer us towards using an
        # option: "icpc -tbb"

        # TODO: clang(?)
        gcc = self._gcc_executable     # must be gcc, not self.compiler.cc
        cxx_lib_path = gcc(
            '--print-file-name', 'libstdc++.%s' % dso_suffix, output=str)

        libs = tbb_lib + LibraryList(cxx_lib_path.rstrip())
        debug_print(libs)
        return libs

    @property
    def _tbb_abi(self):
        '''Select the ABI needed for linking TBB'''
        gcc = self._gcc_executable
        matches = re.search(r'(gcc|LLVM).* ([0-9]+\.[0-9]+\.[0-9]+).*',
                            gcc('--version', output=str), re.I | re.M)
        abi = ''
        if sys.platform == 'darwin':
            pass
        elif matches:
            # TODO: Confirm that this covers clang (needed on Linux only)
            gcc_version = Version(matches.groups()[1])
            if gcc_version >= ver('4.7'):
                abi = 'gcc4.7'
            elif gcc_version >= ver('4.4'):
                abi = 'gcc4.4'
            else:
                abi = 'gcc4.1'     # unlikely, one hopes.

        # Alrighty then ...
        debug_print(abi)
        return abi

    # ---------------------------------------------------------------------
    # Support for virtual 'blas/lapack/scalapack'
    # ---------------------------------------------------------------------
    @property
    def blas_libs(self):
        # Main magic here.
        # For reference, see The Intel Math Kernel Library Link Line Advisor:
        # https://software.intel.com/en-us/articles/intel-mkl-link-line-advisor/

        mkl_integer = 'libmkl_intel_' + self.intel64_int_suffix

        if self.spec.satisfies('threads=openmp'):
            if '%intel' in self.spec:
                mkl_threading = 'libmkl_intel_thread'
            elif '%gcc' in self.spec:
                mkl_threading = 'libmkl_gnu_thread'
            threading_engine_libs = self.openmp_libs
        elif self.spec.satisfies('threads=tbb'):
            mkl_threading = 'libmkl_tbb_thread'
            threading_engine_libs = self.tbb_libs
        elif self.spec.satisfies('threads=none'):
            mkl_threading = 'libmkl_sequential'
            threading_engine_libs = LibraryList([])
        else:
            raise_lib_error('Cannot determine MKL threading libraries.')

        mkl_libnames = [mkl_integer, mkl_threading, 'libmkl_core']
        mkl_libs = find_libraries(
            mkl_libnames,
            root=self.component_lib_dir('mkl'),
            shared=('+shared' in self.spec))
        debug_print(mkl_libs)

        if len(mkl_libs) < 3:
            raise_lib_error('Cannot locate core MKL libraries:', mkl_libnames,
                            'in:', self.component_lib_dir('mkl'))

        # The Intel MKL link line advisor recommends these system libraries
        system_libs = find_system_libraries(
            'libpthread libm libdl'.split(),
            shared=('+shared' in self.spec))
        debug_print(system_libs)

        return mkl_libs + threading_engine_libs + system_libs

    @property
    def lapack_libs(self):
        return self.blas_libs

    @property
    def scalapack_libs(self):
        # Intel MKL does not directly depend on MPI but the BLACS library
        # which underlies ScaLapack does. It comes in several personalities;
        # we must supply a personality matching the MPI implementation that
        # is active for the root package that asked for ScaLapack.
        spec_root = self.spec.root
        if sys.platform == 'darwin' and '^mpich' in spec_root:
            # The only supported choice for MKL 2018 on Mac.
            blacs_lib = 'libmkl_blacs_mpich'
        elif '^openmpi' in spec_root:
            blacs_lib = 'libmkl_blacs_openmpi'
        elif '^mpich@1' in spec_root:
            # Was supported only up to 2015.
            blacs_lib = 'libmkl_blacs'
        elif ('^mpich@2:' in spec_root or
              '^cray-mpich' in spec_root or
              '^mvapich2' in spec_root or
              '^intel-mpi' in spec_root or
              '^intel-parallel-studio' in spec_root):
            blacs_lib = 'libmkl_blacs_intelmpi'
        elif '^mpt' in spec_root:
            blacs_lib = 'libmkl_blacs_sgimpt'
        else:
            raise_lib_error('Cannot find a BLACS library for the given MPI.')

        int_suff = '_' + self.intel64_int_suffix
        scalapack_libnames = [
            'libmkl_scalapack' + int_suff,
            blacs_lib + int_suff,
        ]
        sca_libs = find_libraries(
            scalapack_libnames,
            root=self.component_lib_dir('mkl'),
            shared=('+shared' in self.spec))
        debug_print(sca_libs)

        if len(sca_libs) < 2:
            raise_lib_error(
                'Cannot locate ScaLapack/BLACS libraries:', scalapack_libnames)
        # NB: ScaLapack is installed as "cluster" components within MKL or
        # MKL-encompassing products.  But those were *optional* for the ca.
        # 2015/2016 product releases, which was easy to overlook, and I have
        # been bitten by that.  Thus, complain early because it'd be a sore
        # disappointment to have missing ScaLapack libs show up as a link error
        # near the end phase of a client package's build phase.

        return sca_libs

    # ---------------------------------------------------------------------
    # Support for virtual 'mpi'
    # ---------------------------------------------------------------------
    @property
    def mpi_compiler_wrappers(self):
        '''Return paths to compiler wrappers as a dict of env-like names
        '''
        # Intel comes with 2 different flavors of MPI wrappers:
        #
        # * mpiicc, mpiicpc, and mpiifort are hardcoded to wrap around
        #   the Intel compilers.
        # * mpicc, mpicxx, mpif90, and mpif77 allow you to set which
        #   compilers to wrap using I_MPI_CC and friends. By default,
        #   wraps around the GCC compilers.
        #
        # In theory, these should be equivalent as long as I_MPI_CC
        # and friends are set to point to the Intel compilers, but in
        # practice, mpicc fails to compile some applications while
        # mpiicc works.
        bindir = self.component_bin_dir('mpi')
        if self.compiler.name == 'intel':
            wrapper_vars = {
                # eschew Prefix objects -- emphasize the command strings.
                'MPICC':  os.path.join(bindir, 'mpiicc'),
                'MPICXX': os.path.join(bindir, 'mpiicpc'),
                'MPIF77': os.path.join(bindir, 'mpiifort'),
                'MPIF90': os.path.join(bindir, 'mpiifort'),
                'MPIFC':  os.path.join(bindir, 'mpiifort'),
            }
        else:
            wrapper_vars = {
                'MPICC':  os.path.join(bindir, 'mpicc'),
                'MPICXX': os.path.join(bindir, 'mpicxx'),
                'MPIF77': os.path.join(bindir, 'mpif77'),
                'MPIF90': os.path.join(bindir, 'mpif90'),
                'MPIFC':  os.path.join(bindir, 'mpif90'),
            }
        # debug_print("wrapper_vars =", wrapper_vars)
        return wrapper_vars

    def mpi_setup_dependent_build_environment(
            self, env, dependent_spec, compilers_of_client={}):
        '''Unified back-end for setup_dependent_build_environment() of
        Intel packages that provide 'mpi'.

        Parameters:

            env, dependent_spec: same as in
                setup_dependent_build_environment().

            compilers_of_client (dict): Conveys spack_cc, spack_cxx, etc.,
                from the scope of dependent packages; constructed in caller.
        '''
        # See also: setup_dependent_package()
        wrapper_vars = {
            'I_MPI_CC':   compilers_of_client['CC'],
            'I_MPI_CXX':  compilers_of_client['CXX'],
            'I_MPI_F77':  compilers_of_client['F77'],
            'I_MPI_F90':  compilers_of_client['F90'],
            'I_MPI_FC':   compilers_of_client['FC'],
            # NB: Normally set by the modulefile, but that is not active here:
            'I_MPI_ROOT': self.normalize_path('mpi'),
        }

        # CAUTION - SIMILAR code in:
        #   var/spack/repos/builtin/packages/mpich/package.py
        #   var/spack/repos/builtin/packages/openmpi/package.py
        #   var/spack/repos/builtin/packages/mvapich2/package.py
        #
        # On Cray, the regular compiler wrappers *are* the MPI wrappers.
        if 'platform=cray' in self.spec:
            # TODO: Confirm
            wrapper_vars.update({
                'MPICC':  compilers_of_client['CC'],
                'MPICXX': compilers_of_client['CXX'],
                'MPIF77': compilers_of_client['F77'],
                'MPIF90': compilers_of_client['F90'],
            })
        else:
            compiler_wrapper_commands = self.mpi_compiler_wrappers
            wrapper_vars.update({
                'MPICC':  compiler_wrapper_commands['MPICC'],
                'MPICXX': compiler_wrapper_commands['MPICXX'],
                'MPIF77': compiler_wrapper_commands['MPIF77'],
                'MPIF90': compiler_wrapper_commands['MPIF90'],
            })

        # Ensure that the directory containing the compiler wrappers is in the
        # PATH. Spack packages add `prefix.bin` to their dependents' paths,
        # but because of the intel directory hierarchy that is insufficient.
        env.prepend_path('PATH', os.path.dirname(wrapper_vars['MPICC']))

        for key, value in wrapper_vars.items():
            env.set(key, value)

        debug_print("adding to build env:", wrapper_vars)

    # ---------------------------------------------------------------------
    # General support for child packages
    # ---------------------------------------------------------------------
    @property
    def headers(self):
        result = HeaderList([])
        if '+mpi' in self.spec or self.provides('mpi'):
            result += find_headers(
                ['mpi'],
                root=self.component_include_dir('mpi'),
                recursive=False)
        if '+mkl' in self.spec or self.provides('mkl'):
            result += find_headers(
                ['mkl_cblas', 'mkl_lapacke'],
                root=self.component_include_dir('mkl'),
                recursive=False)
        if '+tbb' in self.spec or self.provides('tbb'):
            result += self.tbb_headers

        debug_print(result)
        return result

    @property
    def libs(self):
        result = LibraryList([])
        if '+tbb' in self.spec or self.provides('tbb'):
            result = self.tbb_libs + result
        if '+mkl' in self.spec or self.provides('blas'):
            result = self.blas_libs + result
        if '+mkl' in self.spec or self.provides('lapack'):
            result = self.lapack_libs + result
        if '+mpi' in self.spec or self.provides('mpi'):
            # If prefix is too general, recursive searches may get files from
            # supported but inappropriate sub-architectures like 'mic'.
            libnames = ['libmpifort', 'libmpi']
            if 'cxx' in self.spec.last_query.extra_parameters:
                libnames = ['libmpicxx'] + libnames
            result = find_libraries(
                libnames,
                root=self.component_lib_dir('mpi'),
                shared=True, recursive=True) + result

        if '^mpi' in self.spec.root and ('+mkl' in self.spec or
                                         self.provides('scalapack')):
            result = self.scalapack_libs + result

        debug_print(result)
        return result

    def setup_run_environment(self, env):
        """Adds environment variables to the generated module file.

        These environment variables come from running:

        .. code-block:: console

           $ source parallel_studio_xe_2017/bin/psxevars.sh intel64
           [and likewise for MKL, MPI, and other components]
        """
        f = self.file_to_source
        tty.debug("sourcing " + f)

        # All Intel packages expect at least the architecture as argument.
        # Some accept more args, but those are not (yet?) handled here.
        args = (_expand_fields('{arch}'),)

        # On Mac, the platform is *also required*, at least as of 2018.
        # I am not sure about earlier versions.
        # if sys.platform == 'darwin':
        #     args = ()

        env.extend(EnvironmentModifications.from_sourcing_file(f, *args))

        if self.spec.name in ('intel', 'intel-parallel-studio'):
            # this package provides compilers
            # TODO: fix check above when compilers are dependencies
            env.set('CC', self.prefix.bin.icc)
            env.set('CXX', self.prefix.bin.icpc)
            env.set('FC', self.prefix.bin.ifort)
            env.set('F77', self.prefix.bin.ifort)
            env.set('F90', self.prefix.bin.ifort)

    def setup_dependent_build_environment(self, env, dependent_spec):
        # NB: This function is overwritten by 'mpi' provider packages:
        #
        # var/spack/repos/builtin/packages/intel-mpi/package.py
        # var/spack/repos/builtin/packages/intel-parallel-studio/package.py
        #
        # They call _setup_dependent_env_callback() as well, but with the
        # dictionary kwarg compilers_of_client{} present and populated.

        # Handle everything in a callback version.
        self._setup_dependent_env_callback(env, dependent_spec)

    def _setup_dependent_env_callback(
            self, env, dependent_spec, compilers_of_client={}):
        # Expected to be called from a client's
        # setup_dependent_build_environment(),
        # with args extended to convey the client's compilers as needed.

        if '+mkl' in self.spec or self.provides('mkl'):
            # Spack's env philosophy demands that we replicate some of the
            # settings normally handled by file_to_source ...
            #
            # TODO: Why is setup_run_environment()
            # [which uses file_to_source()]
            # not called as a matter of course upon entering the current
            # function? (guarding against multiple calls notwithstanding)
            #
            # Use a local dict to facilitate debug_print():
            env_mods = {
                'MKLROOT': self.normalize_path('mkl'),
                'SPACK_COMPILER_EXTRA_RPATHS': self.component_lib_dir('mkl'),
                'CMAKE_PREFIX_PATH': self.normalize_path('mkl'),
                'CMAKE_LIBRARY_PATH': self.component_lib_dir('mkl'),
                'CMAKE_INCLUDE_PATH': self.component_include_dir('mkl'),
            }

            env.set('MKLROOT', env_mods['MKLROOT'])
            env.append_path('SPACK_COMPILER_EXTRA_RPATHS',
                            env_mods['SPACK_COMPILER_EXTRA_RPATHS'])
            env.append_path('CMAKE_PREFIX_PATH', env_mods['CMAKE_PREFIX_PATH'])
            env.append_path('CMAKE_LIBRARY_PATH',
                            env_mods['CMAKE_LIBRARY_PATH'])
            env.append_path('CMAKE_INCLUDE_PATH',
                            env_mods['CMAKE_INCLUDE_PATH'])

            debug_print("adding/modifying build env:", env_mods)

        if '+mpi' in self.spec or self.provides('mpi'):
            if compilers_of_client:
                self.mpi_setup_dependent_build_environment(
                    env, dependent_spec, compilers_of_client)
                # We could forego this nonce function and inline its code here,
                # but (a) it sisters mpi_compiler_wrappers() [needed twice]
                # which performs dizzyingly similar but necessarily different
                # actions, and (b) function code leaves a bit more breathing
                # room within the suffocating corset of flake8 line length.

                # Intel MPI since 2019 depends on libfabric which is not in the
                # lib directory but in a directory of its own which should be
                # included in the rpath
                if self.version_yearlike >= ver('2019'):
                    d = ancestor(self.component_lib_dir('mpi'))
                    libfabrics_path = os.path.join(d, 'libfabric', 'lib')
                    env.append_path('SPACK_COMPILER_EXTRA_RPATHS',
                                    libfabrics_path)
            else:
                raise InstallError('compilers_of_client arg required for MPI')

    def setup_dependent_package(self, module, dep_spec):
        # https://spack.readthedocs.io/en/latest/spack.html#spack.package.PackageBase.setup_dependent_package
        # Reminder: "module" refers to Python module.
        # Called before the install() method of dependents.

        if '+mpi' in self.spec or self.provides('mpi'):
            compiler_wrapper_commands = self.mpi_compiler_wrappers
            self.spec.mpicc  = compiler_wrapper_commands['MPICC']
            self.spec.mpicxx = compiler_wrapper_commands['MPICXX']
            self.spec.mpif77 = compiler_wrapper_commands['MPIF77']
            self.spec.mpifc  = compiler_wrapper_commands['MPIFC']
            debug_print(("spec '%s' received .mpi* properties:" % self.spec),
                        compiler_wrapper_commands)

    # ---------------------------------------------------------------------
    # Specifics for installation phase
    # ---------------------------------------------------------------------
    @property
    def global_license_file(self):
        """Returns the path where a Spack-global license file should be stored.

        All Intel software shares the same license, so we store it in a
        common 'intel' directory."""
        return os.path.join(self.global_license_dir, 'intel', 'license.lic')

    @property
    def _determine_license_type(self):
        '''Provide appropriate license tokens for the installer (silent.cfg).
        '''
        # See:
        #   ./README-intel.rst, section "Details for licensing tokens".
        #   ./build_systems/README-intel.rst, section "Licenses"
        #
        # Ideally, we just tell the installer to look around on the system.
        # Thankfully, we neither need to care nor emulate where it looks:
        license_type = {'ACTIVATION_TYPE': 'exist_lic', }

        # However (and only), if the spack-internal Intel license file has been
        # populated beyond its templated explanatory comments, proffer it to
        # the installer instead:
        f = self.global_license_file
        if os.path.isfile(f):
            # The file will have been created upon self.license_required AND
            # self.license_files having been populated, so the "if" is usually
            # true by the time the present function runs; ../hooks/licensing.py
            with open(f) as fh:
                if re.search(r'^[ \t]*[^' + self.license_comment + '\n]',
                             fh.read(), re.MULTILINE):
                    license_type = {
                        'ACTIVATION_TYPE': 'license_file',
                        'ACTIVATION_LICENSE_FILE': f,
                    }

        debug_print(license_type)
        return license_type

    def configure(self, spec, prefix):
        '''Generates the silent.cfg file to pass to installer.sh.

        See https://software.intel.com/en-us/articles/configuration-file-format
        '''

        # Both tokens AND values of the configuration file are validated during
        # the run of the underlying binary installer. Any unknown token or
        # unacceptable value will cause that installer to fail.  Notably, this
        # applies to trying to specify a license for a product that does not
        # require one.
        #
        # Fortunately, the validator is a script from a solid code base that is
        # only lightly adapted to the token vocabulary of each product and
        # release.  Let's get that script so we can preempt its objections.
        #
        # Rather than running the script on a trial file and dissecting its
        # pronouncements, let's brazenly skim it for supported tokens and build
        # our configuration accordingly. We can do this because the tokens are
        # quite long and specific.

        validator_code = open('pset/check.awk', 'r').read()
        # Let's go a little further and distill the tokens (plus some noise).
        tokenlike_words = set(re.findall(r'[A-Z_]{4,}', validator_code))

        # NB: .cfg files generated with the "--duplicate filename" option have
        # the COMPONENTS string begin with a separator - do not worry about it.
        components_joined = ';'.join(self._filtered_components)
        nonrpm_db_dir = os.path.join(prefix, 'nonrpm-db')

        config_draft = {
            # Basics first - these should be accepted in all products.
            'ACCEPT_EULA':                          'accept',
            'PSET_MODE':                            'install',
            'CONTINUE_WITH_OPTIONAL_ERROR':         'yes',
            'CONTINUE_WITH_INSTALLDIR_OVERWRITE':   'yes',
            'SIGNING_ENABLED':                      'no',

            # Highly variable package specifics:
            'PSET_INSTALL_DIR':                     prefix,
            'NONRPM_DB_DIR':                        nonrpm_db_dir,
            'COMPONENTS':                           components_joined,

            # Conditional tokens; the first is supported post-2015 only.
            # Ignore ia32; most recent products don't even provide it.
            'ARCH_SELECTED':                        'INTEL64',   # was: 'ALL'

            # 'ism' component -- see uninstall_ism(); also varies by release.
            'PHONEHOME_SEND_USAGE_DATA':            'no',
            # Ah, as of 2018.2, that somewhat loaded term got replaced by one
            # in business-speak. We uphold our preference, both out of general
            # principles and for technical reasons like overhead and non-routed
            # compute nodes.
            'INTEL_SW_IMPROVEMENT_PROGRAM_CONSENT': 'no',
        }
        # Deal with licensing only if truly needed.
        # NB: Token was 'ACTIVATION' pre ~2013, so basically irrelevant here.
        if 'ACTIVATION_TYPE' in tokenlike_words:
            config_draft.update(self._determine_license_type)

        # Write sorted *by token* so the file looks less like a hash dump.
        f = open('silent.cfg', 'w')
        for token, value in sorted(config_draft.items()):
            if token in tokenlike_words:
                f.write('%s=%s\n' % (token, value))
        f.close()

    def install(self, spec, prefix):
        '''Runs Intel's install.sh installation script. Afterwards, save the
        installer config and logs to <prefix>/.spack
        '''
        # prepare
        tmpdir = tempfile.mkdtemp(prefix='spack-intel-')

        install_script = Executable('./install.sh')
        install_script.add_default_env('TMPDIR', tmpdir)

        # Need to set HOME to avoid using ~/intel
        install_script.add_default_env('HOME', prefix)

        # perform
        install_script('--silent', 'silent.cfg')

        # preserve config and logs
        dst = os.path.join(self.prefix, '.spack')
        install('silent.cfg', dst)
        for f in glob.glob('%s/intel*log' % tmpdir):
            install(f, dst)

    @run_after('install')
    def configure_rpath(self):
        if '+rpath' not in self.spec:
            return

        # https://software.intel.com/en-us/cpp-compiler-18.0-developer-guide-and-reference-using-configuration-files
        compilers_bin_dir = self.component_bin_dir('compiler')
        compilers_lib_dir = self.component_lib_dir('compiler')

        for compiler_name in 'icc icpc ifort'.split():
            f = os.path.join(compilers_bin_dir, compiler_name)
            if not os.path.isfile(f):
                raise InstallError(
                    'Cannot find compiler command to configure rpath:\n\t' + f)

            compiler_cfg = os.path.abspath(f + '.cfg')
            with open(compiler_cfg, 'w') as fh:
                fh.write('-Xlinker -rpath={0}\n'.format(compilers_lib_dir))

    @run_after('install')
    def configure_auto_dispatch(self):
        if self._has_compilers:
            if ('auto_dispatch=none' in self.spec):
                return

            compilers_bin_dir = self.component_bin_dir('compiler')

            for compiler_name in 'icc icpc ifort'.split():
                f = os.path.join(compilers_bin_dir, compiler_name)
                if not os.path.isfile(f):
                    raise InstallError(
                        'Cannot find compiler command to configure '
                        'auto_dispatch:\n\t' + f)

                ad = []
                for x in IntelPackage.auto_dispatch_options:
                    if 'auto_dispatch={0}'.format(x) in self.spec:
                        ad.append(x)

                compiler_cfg = os.path.abspath(f + '.cfg')
                with open(compiler_cfg, 'a') as fh:
                    fh.write('-ax{0}\n'.format(','.join(ad)))

    @run_after('install')
    def filter_compiler_wrappers(self):
        if (('+mpi' in self.spec or self.provides('mpi')) and
                '~newdtags' in self.spec):
            bin_dir = self.component_bin_dir('mpi')
            for f in 'mpif77 mpif90 mpigcc mpigxx mpiicc mpiicpc ' \
                     'mpiifort'.split():
                f = os.path.join(bin_dir, f)
                filter_file('-Xlinker --enable-new-dtags', ' ', f, string=True)

    @run_after('install')
    def uninstall_ism(self):
        # The "Intel(R) Software Improvement Program" [ahem] gets installed,
        # apparently regardless of PHONEHOME_SEND_USAGE_DATA.
        #
        # https://software.intel.com/en-us/articles/software-improvement-program
        # https://software.intel.com/en-us/forums/intel-c-compiler/topic/506959
        # Hubert H. (Intel)  Mon, 03/10/2014 - 03:02 wrote:
        #  "... you can also uninstall the Intel(R) Software Manager
        #  completely: <installdir>/intel/ism/uninstall.sh"

        f = os.path.join(self.normalize_path('ism'), 'uninstall.sh')
        if os.path.isfile(f):
            tty.warn('Uninstalling "Intel Software Improvement Program"'
                     'component')
            uninstall = Executable(f)
            uninstall('--silent')

        # TODO? also try
        #   ~/intel/ism/uninstall --silent

        debug_print(os.getcwd())
        return

    # Check that self.prefix is there after installation
    run_after('install')(PackageBase.sanity_check_prefix)
